Cosel PJA1000F, PJA100F, PJA1500F, PJA150F, PJA300F, PJA600F User manual

  • Hello! I'm your chat assistant. I've analyzed the instruction manual for COSEL PJA series Power Supplies, including models PJA-18, PJA100F, PJA150F, PJA300F, PJA600F, PJA1000F and PJA1500F. This manual provides information on the power supplies' features, such as overcurrent, overvoltage and thermal protection, and options for remote on/off and sensing. I'm ready to answer any questions you have about these devices.
  • What is the input voltage range for these power supplies?
    How does overcurrent protection work?
    What should I do if overvoltage protection activates?
    Can these power supplies be used in series or parallel?
    Is there a remote ON/OFF option?
3 Temperature Measurement Point PJA-20
5Ground PJA-22
4 Life Expectancy and Warranty PJA-20
1 Function PJA-18
2Series Operation and Parallel Operation PJA-20
1.1 Input Voltage Range
1.2 Inrush Current Limiting
1.3 Overcurrent Protection
1.4 Overvoltage Protection
1.5 Thermal Protection
1.6 Output Ripple and Ripple Noise
1.7 Output Voltage Adjustment
1.8 Isolation
1.9 Low Power Consumption
1.10 Remote ON/OFF
1.11 Remote Sensing
1.12 LV Alarm
PJA-18
PJA-18
PJA-18
PJA-18
PJA-18
PJA-19
PJA-19
PJA-19
PJA-19
PJA-19
PJA-19
PJA-19
2.1 Series Operation
2.2 Parallel Operation
PJA-20
PJA-20
6.1 Outline of Options
6.2 Others
PJA-22
PJA-27
6 Options and Others PJA-22
AC-DC Power Supplies Enclosed Type
Instruction Manual
PJA-17
July 03, 2020
1.1 Input Voltage Range
¡The input voltage range of the power supply is 85-264VAC (See
SPECIFICATIONS for more details).
¡The rated input voltage to comply with safety standards is 100-
240VAC (50/60Hz).
¡If the input voltage is out of the above range, the power supply
may malfunction and/or fail.
¡If the input voltage was changed dynamically, the output voltage
change might be out of specications.
¿ PJA100F, PJA150F
¡If the input voltage is more than 250VAC, power factor correction
does not work and the power factor deteriorates. Please contact us
for more details.
¿ PJA100F, PJA150F, PJA300F, PJA600F
¡The power supply can work at the input voltage dip with the derat-
ing.
-Use Conditions
Maximum output power *( ) is 5V output model.
PJA100F 40W
PJA150F 60W
PJA300F 120W(100W)
PJA600F 240W(200W)
Input AC50V
Duty 1s/30s
* Avoid using the power supply under the above-mentioned
conditions for more than 1 second continuously as the
power supply may be damaged.
1.2 Inrush Current Limiting
¡Inrush current protection is built-in.
¡If you need to use a switch on the input side, select one that can
withstand an input inrush current.
¿ PJA100F, PJA150F, PJA300F
¡Thermistor is used in the inrush current limiting circuit. When you
turn the power supply on and off repeatedly within a short period
of time, have enough intervals for the power supply to cool down
before being turned on again.
¿ PJA600F, PJA1000F, PJA1500F
¡Thyristor and TRIAC technique is used in the inrush current limit-
ing circuit. When you turn the power supply on and off repeatedly
within a short period of time, have enough intervals for the inrush
current protection to become active.
¡There will be primary inrush current and secondary inrush current
owing because thyristor and TRIAC technique is used for the in-
rush current limiting circuit.
1 Function 1.3 Overcurrent Protection
¡Overcurrent protection is built-in. It works at more than 105% of
the rated output current. The power supply recovers automatically
when the overcurrent condition is removed. Do not use the power
supply under a short-circuit or overcurrent condition.
¡Hiccup Operation Mode
When overcurrent protection works and the output voltage drops,
the output voltage goes into hiccup mode so that the average out-
put current can decrease.
1.4 Overvoltage Protection
¡Overvoltage protection is built-in. If overvoltage protection works,
shut down the input voltage, wait more than 3 minutes, and turn
on the input voltage again to recover the output voltage. The re-
covery time varies depending on the input voltage, etc.
Remarks :
Avoid applying an overrated voltage to the output terminals as
it may cause the power supply to malfunction or fail. In case the
above-mentioned situation is expected in operating such loads as
a motor, for example, consult us for advice.
1.5 Thermal Protection
¿ PJA100F, PJA150F
¡These models are not equipped with thermal protection.
¿ PJA300F, PJA600F, PJA1000F, PJA1500F
¡Thermal protection is built-in.
Thermal protection will work under the following conditions and
the power supply will shut down.
1
When the operating temperature and the output current greatly
exceed the derating curve.
2
When the built-in cooling fan stops or the air ow from the fan is
obstructed.
If thermal protection works, switch off the input voltage and elimi-
nate the conditions causing thermal protection to work. Allow
enough time for the unit to cool off before switching on the input
voltage again to recover the output voltage.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-18 July 03, 2020
1.9 Low Power Consumption
¿ PJA100F, PJA150F
¡These power supplies are designed for low power consumption at no
load. (No load power consumption: 1.5W typ)
¡
When the load factor is 0- 30%, the switching power loss is reduced by
burst operation, which will cause ripple and ripple noise to go beyond
the specications.
¡Ripple and ripple noise during burst operation will change depending
on the input voltage and the output current. Consult us for advice on
how to reduce ripple and ripple noise.
¡When there is a need to measure the stand-by power consumption,
measure it by using the average mode of the tester. The measuring
environment may inuence the result. Consult us for more details.
1.10 Remote ON/OFF
¡The –R option is available for these models. With the –R option,
remote ON/OFF is possible. See “6 Options and Others” for more
details.
1.11 Remote Sensing
¿ PJA100F, PJA150F, PJA300F
¡These models do not have the remote sensing function.
¿ PJA600F, PJA1000F, PJA1500F
¡The –W option is available. With the –W option, remote sensing is
possible. See “6 Options and Others” for more details.
1.12 LV Alarm
¿ PJA100F, PJA150F, PJA300F
¡These models do not have the LV alarm function.
¿ PJA600F, PJA1000F, PJA1500F
¡The –W option is available. With the –W option, the power supply
can give an LV alarm. See “6 Options and Others” for more details.
1.6 Output Ripple and Ripple Noise
¡Output ripple noise may be inuenced by the measuring environ-
ment. The measuring method shown in Fig. 1.1 is recommended.
¡Output ripple and ripple noise is the value measured by the meth-
od shown in Fig.1.1.
+Vout
-Vout
Load
150mm
C
2
C
1
Osiloscope/
Ripple noise meter
Bw:20MHz
Differential probe
+
C1 : Film capacitor 0.1μF
C2 : Aluminum electrolytic capacitor 22μF
Fig.1.1 Measuring method of Ripple and Ripple Noise
Remarks :
When measuring output ripple or ripple noise with an oscilloscope,
do not have the oscilloscope’s GND cable cross the magnetic ux
from the power supply. Otherwise there may be electrical potential
generated on the GND cable and the measurement result may not
be accurate.
150mm
Bad example Good example
Fig.1.2 Example of measuring output ripple and ripple noise
1.7 Output Voltage Adjustment
¡The output voltage can be adjusted within the specied range by
turning the built-in potentiometer clockwise (up) or counterclock-
wise (down).
¡Please operate the potentiometer slowly.
¿ PJA300F, PJA600F, PJA1000F, PJA1500F
¡With the option –V, the power supply comes with an external po-
tentiometer instead of a built-in potentiometer. (See 6 Options and
Others).
1.8 Isolation
¡For a receiving inspection, such as Hi-Pot test, gradually increase
(decrease) the voltage for the start (shut down). Avoid using Hi-
Pot tester with the timer because it may generate voltage a few
times higher than the applied voltage, at ON/OFF of a timer.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-19
July 03, 2020
3 Temperature
Measurement Point
¿ PJA100F, PJA150F
¡Make sure the case temperature at point A and point B is less than
the temperatures shown in Table 3.1 and Table 3.2.
¡When the power supply is used with a forced cooling, make sure the
case temperature requirements shown in Table 3.1 and Table 3.2 are
met.
¡The life expectancy of the power supply at the highest allowed tem-
perature at point A and point B is 3 years. See “4 Life Expectancy
and Warranty” to prolong the life expectancy.
See External View for the position of Point A and Point B.
Table 3.1 Temperature of Point A PJA100F-O
Mounting
Method Load factor Max temperature [C]
A, B, C Io[100% 81
Table 3.2 Temperature of Point A, Point B PJA150F-O
Mounting
Method Load factor Max temperature [C]
Point A Point B
A, B, C Io[100% 85 78
4
Life Expectancy and
Warranty
¡Life Expectancy
The life expectancy of the power supply is shown below.
¿ PJA100F, PJA150F
Table 4.1 Life Expectancy (PJA100F/150F)
Mounting
Method
Cooling
Method
Average ambient
temperature
Life Expectancy
[years]
Io[50% Io[100%
A Convection
Ta = 30C10 5
Ta = 40C5 3
B, C Convection
Ta = 20C10 5
Ta = 30C5 3
A, B , C
Forced air cooling Ta = 40C10 5
Ta = 55C5 3
2 Series Operation and
Parallel Operation
2.1 Series Operation
¡The power supplies can be used in series connection. The output
current in series operation must be lower than the rated current of
the power supply with the lowest rated current among the power
supplies connected in series. Make sure no current exceeding the
rated current ows into a power supply.
Load
Power
Supply
+
-
+
-
Power
Supply
LoadLoad
Power
Supply
+
-
+
-
Power
Supply
Fig.2.1 Examples of connecting in series operation
2.2 Parallel Operation
¡Redundant operation is possible by wiring as shown below.
I2
I1I3
-
+
+
-
Load
Power
Supply
Power
Supply
Fig.2.2 Example of redundancy operation
¡Even a slight difference in output voltage can affect the balance
between the values of I1 and I2.
Make sure the value of I3 does not exceed the rated output current
of the power supply.
l3 [ the rated current value
¿ PJA100F, PJA150F, PJA300F
¡Parallel operation is not possible.
¿ PJA600F, PJA1000F, PJA1500F
¡The –W option is available. With the –W option, parallel operation
is possible. See “6 Options and Others” for more details.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-20 July 03, 2020
¿ PJA300F, PJA600F, PJA1000F, PJA1500F
Table 4.2 Life Expectancy (PJA300F/600F/1000F/1500F)
Mounting
Cooling method Average ambient
temperature
Life Expectancy
[years]
Io[50% Io[100%
All
direction
Forced air cooling
(internal fan)
Ta = 30C10 7
Ta = 40C7 5
Ta = 50C5 3
*This lifetime includes a built-in fan lifetime.
¡The life expectancy time (R (t) = 90%) of the built-in fan depends
on the operating condition as shown in Fig. 4.1, 4.2.
4020 30 50 60 70 8
0
10,000
100,000
500,000
Temperature of measurement point [C]
Life expectancy [H]
Fig.4.1 Life expectancy of fan (PJA300F/600F)
4020 30 50 60 70
80
10,000
100,000
500,000
Temperature of measurement point [C]
Life expectancy [H]
Fig.4.2 Life expectancy of fan (PJA1000F/1500F)
AIR FLOW
20mm
Measurement point
Power supply
Terminal
block
F
A
N
(Side)
AIR FLOW
20mm
Measurement point
Power supply
Terminal
block
F
A
N
(Top)
Fig.4.3 Temperature of measurment point for fan lifetime (PJA300F/600F)
Measurement point
Measurement point
Measurement point
Terminal
block
Terminal
block
Power supply
(Side)
Power supply
(Top)
F
A
N
F
A
N
F
A
N
AIR FLOW
AIR FLOW
20mm
20mm
Fig.4.4 Temperature of measurment point for fan lifetime (PJA1000F/1500F)
¡Warranty
The maximum warranty period is 5 years as shown in Table 4.3, 4.4.
¿ PJA100F, PJA150F
Table 4.3 Warranty (PJA100F/150F)
Mounting
Cooling method Average ambient
temperature
Warranty [years]
Io[50% Io[100%
A Convection
Ta = 30C5 5
Ta = 40C5 3
B, C Convection
Ta = 20C5 5
Ta = 30C5 3
A, B, C
Forced air cooling Ta = 40C5 5
Ta = 55C5 3
¿ PJA300F, PJA600F, PJA1000F, PJA1500F
Table 4.4 Warranty (PJA300F/600F/1000F/1500F)
Mounting
Cooling method Average ambient
temperature
Warranty [years]
Io[50% Io[100%
All
direction
Forced air cooling
(internal fan)
Ta = 40C5 5
Ta = 50C5 3
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-21
July 03, 2020
5 Ground
¡When installing the power supply, make sure the FG terminal and
the chassis (at more than 2 places) are connected to the safety
earth ground.
6 Options and Others
6.1 Outline of Options
¿ –C
-With the –C option, the internal PCB has a conformal coating for
anti-humidity.
¿ –G
(PJA300F, PJA600F, PJA1000F, PJA1500F)
-With the –G option, the leakage current of the power supply is
reduced.
-The differences between the option –G models and the standard
models are shown below.
Table 6.1 Low leakage current type
PJA300F/600F PJA1000F/1500F
Leakage Current
(AC240V 60Hz) 0.15mA max 0.2mA max
Conducted Noise N/A
Output Ripple Noise Please contact us for details about
Ripple Noise
* This is the result of measurement of the testing board with capaci-
tors of 22μF and 0.1μF placed at 150 mm from the output termi-
nals by a 20 MHz oscilloscope or a ripple-noise meter equivalent
to Keisoku-Giken RM103.
¿ –V
(PJA300F, PJA600F, PJA1000F, PJA1500F)
-With the –V option, the power supply comes with an external
potentiometer connector instead of a built-in potentiometer.
-The appearance of the –V models is different from that of the
standard models. Contact us for more details.
-Note that if the power supply is turned on with CN3 open, the
output voltage will make a big drop.
CN3
V.ADJ
+V +V
Fig.6.1 Front view of option-V (PJA600F)
CN3
1
2
+V
-V
Fig.6.2 Front view of option-V (PJA1500F)
¿ –R
-The –R option makes it possible to switch on or off the output by
applying voltage to the RC terminals of the power supply from
an external power source.
-The appearance of the option –R models is different from that of
the standard models.
-Designated harnesses for the RC terminals are available for
sale. See Optional Parts for more details.
-The –R option models have extra connectors. Please contact us
for more details.
Table 6.2 Remote on/off operating conditions
Model Name
Built-in
Resistor
Ri [ W ]
Voltage between RC
and RCG [V]
Input
Current
[mA]
Output ON Output OFF
PJA100F, PJA150F,
PJA300F, PJA600F,
PJA1000F, PJA1500F
780 4.5 - 12.5 0 - 0.5 (20max)
Ri
RCG
RC
*1
RSW
External Power
Source
Remote ON/OFF connector (Optional)
Input Current
Inside of a Power
Supply
Fig.6.3 Example of using a remote ON/OFF circuit
*1 If the external voltage applied to the RC terminals is 4.5
-12.5V, the current limiting resistor is not necessary. If the volt-
age applied is more than 12.5V, make sure the current limiting
resistor R is used.
The value of the current limiting resistor is obtained by the follow-
ing formula:
R[W]= Vcc-(1.1+RiX0.005)
0.005 Vcc : External Power Source
*
Note that reversed connection damages internal components of
the power supply.
*
The remote control circuit is isolated from input, output and FG.
¡Remote on/off control for PJA100F, PJA150F, and PJA300F
-Remote control connectors are added. Contact us for more details.
-Make sure there is an interval of more than 2 seconds in the on/
off cycle. If the interval is shorter, the start-up time may become
longer (approx. 2 seconds).
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-22 July 03, 2020
CN4
RCG 2
RC 1
Fig.6.4 Example of option -R (PJA100F, PJA150F)
Table 6.3 Pin conguration and function of CN4 (PJA100F/150F)
PIN FUNCTION
1 RC : Remote ON/OFF
2 RCG :Remote ON/OFF (GND)
Table 6.4 Mating connectors and terminals on CN4 (PJA100F/150F)
Connector Housing Terminal Mfr
CN4 B2B-XH-AM XHP-2
BXH-001T-P0.6
or
SXH-001T-P0.6
J.S.T.
CN1
V.ADJ
+V -V -V
AC
(N) AC
(L)
FG
+V
CN1
1 RC
2 RCG
Fig.6.5 Example of option -R (PJA300F)
Table 6.5 Pin conguration and function of CN1 (PJA300F)
PIN FUNCTION
1 RC : Remote ON/OFF
2 RCG :Remote ON/OFF (GND)
Table 6.6 Mating connectors and terminals on CN1 (PJA300F)
Connector Housing Terminal Mfr
CN1 XARR-02V XAP-02V-1
SXA-001T-P0.6
J.S.T.
¡Remote on/off control for PJA600F, PJA1000F and PJA1500F
-The appearance of the –R option model is different from that of
the standard model as CN1 is added. Contact us for more details.
CN1
-V+V -V+V
V.ADJ
AC
(L)(N)
AC
FG
Fig.6.6 Front view of option -R (PJA600F)
CN1
FG AC AC
(N) (L)
V.ADJ
-V
+V
Fig.6.7 Front view of option -R (PJA1500F)
CN1
1
2
9
10
Fig.6.8 Pin number
Table 6.7 Pin conguration and function of CN1
(PJA600F/1000F/1500F)
PIN FUNCTION
1 - :N.C.
2 - :N.C.
3 RC :Remote ON/OFF
4 RCG :Remote ON/OFF(GND)
5 - :N.C.
6 - :N.C.
7 - :N.C.
8 - :N.C.
9 - :N.C.
10 - :N.C.
Table 6.8 Mating connectors and terminals on CN1 (PJA600F/1000F/1500F)
Connector Housing Terminal Mfr
CN1
S10B-PHDSS PHDR-10VS
Reel :SPHD-002T-P0.5
Loose :BPHD-001T-P0.5
:BPHD-002T-P0.5
J.S.T.
¿ –W (PJA600F, PJA1000F, PJA1500F)
-The –W option models provide remote sensing, low output volt-
age alarm (LV alarm), and parallel operation.
-The appearance of the –W option model is different from that of
the standard mode. Contact us for more details.
-Designated harnesses are available for sale. See Optional
Parts.
-
The differences from the standard model are shown in Table 6.9.
Table 6.9 Specication differences of Option -W
Load regulation 1.5 times of standard spec.
Ripple 1.5 times of standard spec.
Ripple noise 1.5 times of standard spec.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-23
July 03, 2020
-V+V -V+V
V.ADJ
AC
(L)(N)
AC
FG
(install)
H-SN-31
CN2
CN1
Fig.6.9 Front view of option -W (PJA600F)
H-SN-31(install)
FG AC AC
(N) (L)
V.ADJ
-V
+V
CN1
CN2
Fig.6.10 Front view of option -W (PJA1500F)
Table 6.10 Pin conguration and function of CN1 and CN2
CN 1CN 2
1
2
9
10
1
2
9
10
Fig.6.11 Pin number
PIN FUNCTION
1+M : Self sensing terminal (Don’t
wire for external function)
2 +S :+Sensing
3 - :N.C.
4 - :N.C.
5LV :LV alarm
6LVG :LV alarm (GND)
7 CB :Current balance
8 - :N.C.
9-M : Self sensing terminal (Don’t
wire for external function)
10 -S :-Sensing
Table 6.11 Mating connectors and terminals on CN1 and CN2
Connector Housing Terminal Mfr
CN1
CN2
S10B-PHDSS PHDR-10VS
Reel :SPHD-002T-P0.5
Loose :BPHD-001T-P0.5
:BPHD-002T-P0.5
J.S.T.
¡LV alarm
The operating conditions of the LV alarm are shown in Table 6.12.
The internal circuit of the LV alarm is shown in Fig. 6.12. The LV
alarm is isolated from input, output, and FG.
100kW0.1 F LV
LVG
Fig.6.12 LV internal circuit
Table 6.12 LV alarm operating conditions
Alarm Output of alarm
LV
If the output voltage drops or
stops, the LV and LVG terminals
give an alarm signal.
Note : 1In case of overcurrent,
the alarm signal will be
unstable.
2The alarm signal won’t
be given in parallel
operation if OR diodes
are not used.
Open collector method
Good : Low
(0 - 0.8V, 10mA max)
Fail : High or Open
50V 10mA max
¡Parallel operation
For parallel operation, please take the following steps:
1 (Before wiring) set the output voltage of each unit to the desired
value. The output voltage difference between the units must be
less than 0.1V or 1% of the rated output voltage, whichever is
smaller.
2 Wire the power supplies as shown in Fig. 6.13. Make sure the
output wires of the unit connected in parallel are of the same
length and the same type.
3 Make sure the total output current does not exceed the value
determined by the following formula:
The rated
current per unit
= X (Number of unit) X0.85
Output current in
parallel operation
*
Make sure the current drawn from each unit is less than the
rated output current.
-
When adjusting the output voltage after wiring, repeat the above-
mentioned steps (1 to 3).
-
If the number of units in parallel increases, the input current in-
creases as well. Make sure the input equipment and wires have
enough current capacity.
-The maximum number of units for parallel connection is 5.
-Master-Slave operation is not possible.
-V+V -V+V
V.ADJ
AC
(L)(N)
AC
FG -V+V -V+V
V.ADJ
AC
(L)(N)
AC
FG -V+V -V+V
V.ADJ
AC
(L)(N)
AC
FG
No.1 No.2 No.5
(-) (+)
Load
CB and ±S CB and ±S
Install H-SN-31 Remove H-SN-31 Remove H-SN-31
Fig.6.13 Parallel operation condition (Example of PJA600F)
-
If the output current is less than 10% of the rated output current,
the output voltage may uctuate.
The required minimum current is different depending on the model
and the number of units in parallel. Consult us for more details.
-
If the length of the output wires of each unit is different, the output
current from each unit will be unbalanced. Make sure to use out-
put wires of the same length for all units in parallel.
¡Remote sensing
-These models are equipped with a remote sensing function.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-24 July 03, 2020
If the remote sensing is not used, the following terminals of CN1
must be shorted:
+S and +M
–S and –M
When the power supply is shipped from our factory, a designated
harness (H-SN-31) is attached to CN1. If remote sensing is not
used, there is no need to remove the harness.
-The wire connection when remote sensing is used or not used is
shown in Fig. 6.14 - Fig. 6.15.
-When using remote sensing, make sure to nish wiring +S and
S rst. The designated harness is available for sale. Contact us
for more details.
-When using remote sensing, pay attention to the following:
1 Wiring must be done carefully. If there is bad connection on the
load lines due to loose screws, etc., the load current ows into
the sensing lines and the internal circuit of the power supply may
be damaged.
2 Make sure the wires between the load and the power supply are
thick enough to keep the line drop less than 0.3V.
3 If the sensing wires are long, place C1 and R1 across the load
lines.
4 Use a twisted pair wire or a shielded wire for the sensing lines.
5 Do not draw the output current from +M, –M, +S or –S.
6 The impedance of the wiring or the load may cause the output
voltage to oscillate or uctuate.
Test to conrm remote sensing works ne. If the output voltage is
found to be unstable, the following methods are recommended:
- Remove the remote sensing line on the minus side and short
–S and –M.
- Use C1, R1, and R2.
+MShort at CN1
(H-SN-31)
+S
-S
CN1
-M
+V
-V
Load
C1
Fig.6.14 When not using remote sensing function
+M
Wire the sensing lines as close
as possible
+S
-S
CN1
-M
+V
-V
Load
C1R2
R1
Fig.6.15 When using remote sensing function
¿ –T (PJA100F, PJA150F)
-The –T option models come with a vertical terminal block.
The appearance is different from that of the standard models.
Contact us for more details.
Output
terminal(
+
)
Output
terminal(
-
)
FG( )
AC(N)
AC(L)
M3.5
V.ADJ
Fig.6.16 Example of option -T(PJA100F)
¿ –J (PJA100F, PJA150F)
-
The –J option models come with EP connectors (Mfr. Tyco Elec-
tronics AMP) instead of a terminal block.
-
The designated harnesses are available for sale. See Optional
Parts for more details.
-
The appearance is different from that of the standard models.
Contact us for more details.
-
Keep the drawing current less than 5A per pin.
-
UL508 does not apply to the –J option models.
V.ADJ
AC(L)
AC(N)
FG
-
V
+
V
CN1
CN2
Fig.6.17 Example of option -J (PJA100F)
Table 6.13 Mating connectors and terminals on CN1 and CN2 in option -J
(PJA100F/150F)
I/O Connector Matching Housing Terminal
CN1 1-1123724-3 1-1123722-5 Reel : 1123721-1
Loose : 1318912-1
CN2 1-1123723-6 1-1123722-6 Reel : 1123721-1
Loose : 1318912-1
(Mfr. Tyco electronics AMP)
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-25
July 03, 2020
¿ –J1 (PJA100F, PJA150F)
-
The –J1 option models come with VH connectors (Mfr. J.S.T.)
instead of a terminal block.
-
The designated harnesses are available for sale. See Optional
Parts for more details.
-
The appearance is different from that of the standard models.
Contact us for more details.
-
Keep the drawing current less than 5A per pin.
-
UL508 does not apply to the –J1 option models.
V.ADJ
AC(L)
AC(N)
FG
-
V
+
V
CN1
CN2
Fig.6.18 Example of option -J1 (PJA100F)
Table 6.14 Mating connectors and terminals on CN1 and CN2 in
option -J1 (PJA100F/150F)
I/O Connector Matching Housing Terminal
CN1 B3P5-VH VHR-5N Reel : SVH-21T-P1.1
Loose : BVH-21T-P1.1
CN2 B6P-VH VHR6-N Reel : SVH-21T-P1.1
Loose : BVH-21T-P1.1
(Mfr. J.S.T.)
¿ –F4 (PJA300F, PJA600F)
-The –F4 option models come with a low-speed fan to reduce the
fan noise.
-The differences from the standard fan versions are shown
below.
02010-20-10
100
80
60
40
50
20
060 70504030
Ambient temperature [C]
Load factor [%]
Fig.6.19 Ambient temperature derating curve for PJA300F (Option-F4)
0 2010-20 -10
100
80
60
40
50
20
10
060 7
0
504030
Ambient temperature [C]
Load factor [%]
Fig.6.20 Ambient temperature derating curve for PJA600F (Option-F4)
*
The specication of ripple and ripple noise changes in shaded
area.
Table 6.15 Life Expectancy (-F4)
Mounting
Cooling method Average ambient
temperature
Life Expectancy
[years]
Io[50% Io[100%
All
direction
Forced air cooling
(internal fan)
Ta = 10C10 7
Ta = 20C7 5
Ta = 30C5 3
*This lifetime includes a built-in fan lifetime.
4020 30 50 60 70 80
10,000
100,000
Temperature of measurement point [C]
Life expectancy [H]
Fig.6.21 Life Expectancy of fan R(t)=90% (-F4)
Table 6.16 Warranty (-F4)
Mounting
Cooling method Average ambient
temperature
Warranty [years]
Io[50% Io[100%
All
direction
Forced air cooling
(internal fan)
Ta = 20C5 5
Ta = 30C5 3
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-26 July 03, 2020
¿ –N2 (PJA100F, PJA150F)
-The –N2 option models come with a DIN rail mount attachment.
-The appearance is different from that of the standard models.
Contact us for more details.
-The –N2 option models have different vibration and shock speci-
cations. Consult us for more details.
-Contact us for safety agency approvals.
Fig.6.22 Power supply installed on a DIN rail (PJA100F)
6.2 Others
¡Note that the case of the power supply remains hot for a while af-
ter it is turned off.
¡If large capacitors are connected to the output terminals (load
side), the output voltage may stop or become unstable. Consult us
for advice.
¡If the power supply is turned off at no load, the output voltage re-
mains for a few minutes as the power supply is designed for low
internal power consumption. Be careful of electrical shock at the
time of maintenance.
¡If the built-in cooling fan in PJA300F/600F/1000F/1500F stops,
the built-in thermal protection may work and the output voltage
may stop. Please check fan rotation periodically, to enhance the
system reliability.
AC-DC Power Supplies Enclosed Type Instruction Manual
PJA-27
July 03, 2020
/